钱忠胜 等: 结合   SVM  与  XGBoost 的链式多路径覆盖测试用例生成                                      2819


                  [7]  Qian ZS, Song T. Reuse of test cases between similar programs based on keyword flow graph. Ruan Jian Xue Bao/Journal of Software,
                     2021, 32(9): 2691–2712 (in Chinese with English abstract). http://www.jos.org.cn/1000-9825/5984.htm [doi: 10.13328/j.cnki.jos.005984]
                  [8]  Yao XJ, Gong DW, Li B. Evolutional test data generation for path coverage by integrating neural network. Ruan Jian Xue Bao/Journal of
                     Software, 2016, 27(4): 828–838 (in Chinese with English abstract). http://www.jos.org.cn/1000-9825/4973.htm [doi: 10.13328/j.cnki.jos.
                     004973]
                  [9]  Gong DW, Sun BC, Yao XJ, Tian T. Test data generation for path coverage of MPI programs using SAEO. ACM Trans. on Software
                     Engineering and Methodology, 2021, 30(2): 17. [doi: 10.1145/3423132]
                 [10]  Qian ZS, Yu QY, Song T, Zhu YM, Zhu J, Zhao C. Test case generation and reuse based on support vector machine regression model.
                     Acta Electronica Sinica, 2021, 49(7): 1386–1391 (in  Chinese  with  English  abstract). [doi: 10.12263/DZXB.20200426]
                 [11]  Chen TM, Yang YM, Chen B. Maldetect: An Android malware detection system based on abstraction of Dalvik instructions. Journal of
                     Computer Research and Development, 2016, 53(10): 2299–2306 (in  Chinese  with  English  abstract). [doi: 10.7544/issn1000-1239.2016.
                     20160348]
                 [12]  Esteves G, Figueiredo E, Veloso A, Viggiato M, Ziviani N. Understanding machine learning software defect predictions. Automated
                     Software Engineering, 2020, 27(3): 369–392. [doi: 10.1007/s10515-020-00277-4]
                 [13]  Di Nucci D, Panichella A, Zaidman A, De Lucia A. A test case prioritization genetic algorithm guided by the hypervolume indicator.

                     IEEE Trans. on Software Engineering, 2020, 46(6): 674–696. [doi: 10.1109/TSE.2018.2868082]
                 [14]  Xia CY, Zhang Y, Wan L, Song Y, Xiao N, Guo B. Test data generation of path coverage based on negative selection genetic algorithm.
                     Acta Electronica Sinica, 2019, 47(12): 2630–2638 (in  Chinese  with  English  abstract). [doi: 10.3969/j.issn.0372-2112.2019.12.024]
                 [15]  Qian ZS, Zhu J, Zhu YM, Yu QY, Li DM, Song J. Multi-path coverage strategy combining key point probability and path similarity.
                     Ruan Jian Xue Bao/Journal of Software, 2022, 33(2): 434–454 (in Chinese with English abstract). http://www.jos.org.cn/1000-9825/6149.
                     htm [doi: 10.13328/j.cnki.jos.006149]
                 [16]  Qi  RZ,  Wang  ZJ,  Huang  YH,  Li  SY.  Generating  combinatorial  test  suite  with  spark  based  parallel  approach.  Chinese  Journal  of
                     Computers, 2018, 41(6): 1284–1299 (in  Chinese  with  English  abstract). [doi: 10.11897/SP.J.1016.2018.01284]
                 [17]  Skocelas KG, DeVries B. Test data generation for recurrent neural network implementations. In: Proc. of the 2020 IEEE Int’l Conf. on
                     Electro Information Technology. Chicago: IEEE, 2020. 469–474. [doi: 10.1109/EIT48999.2020.9208306]
                 [18]  Jiang HY, Zong M, Liu XY. Research of software defect prediction model based on ACO-SVM. Chinese Journal of Computers, 2011,
                     34(6): 1148–1154 (in  Chinese  with  English  abstract). [doi: 10.3724/SP.J.1016.2011.01148]
                                                         +
                 [19]  Pradhan D, Wang S, Ali S, Yue T, Liaaen M. CBGA-ES : A cluster-based genetic algorithm with non-dominated elitist selection for
                     supporting multi-objective test optimization. IEEE Trans. on Software Engineering, 2021, 47(1): 86–107. [doi: 10.1109/TSE.2018.288
                     2176]
                 [20]  Bhati BS, Chugh G, Al-Turjman F, Bhati NS. An improved ensemble based intrusion detection technique using XGBoost. Trans. on
                     Emerging Telecommunications Technologies, 2021, 32(6): e4076. [doi: 10.1002/ett.4076]
                 [21]  Yang  HY,  Xu  J.  Android  malware  detection  based  on  improved  random  forest.  Journal  of  Communications,  2017,  38(4):  8 –16  (in
                      Chinese  with  English  abstract). [doi: 10.11959/j.issn.1000-436x.2017073]

                 附中文参考文献:
                  [3]  廖伟志, 夏小云, 贾小军. 基于蚁群算法的多路径覆盖测试数据生成. 电子学报, 2020, 48(7): 1330–1342. [doi: 10.3969/j.issn.0372-
                     2112.2020.07.011]
                  [5]  范书平, 万里, 姚念民, 张岩, 马宝英. 基于关键用例获取的测试用例排序方法. 电子学报, 2022, 50(1): 149–156. [doi: 10.12263/
                     DZXB.20201284]
                  [6]  潘峰, 巩敦卫, 田甜, 姚香娟, 李吟. 基于路径相似度的并行程序多路径覆盖调度序列排序. 中国科学: 信息科学, 2021, 51(4):
                     565–581. [doi: 10.1360/SSI-2019-0113]
                  [7]  钱忠胜, 宋涛. 面向关键字流图的相似程序间测试用例的重用. 软件学报, 2021, 32(9): 2691–2712. http://www.jos.org.cn/1000-9825/
                     5984.htm [doi: 10.13328/j.cnki.jos.005984]
                  [8]  姚香娟, 巩敦卫, 李彬. 融入神经网络的路径覆盖测试数据进化生成. 软件学报, 2016, 27(4): 828–838. http://www.jos.org.cn/1000-
                     9825/4973.htm [doi: 10.13328/j.cnki.jos.004973]
                 [10]  钱忠胜, 俞情媛, 宋涛, 朱懿敏, 祝洁, 赵畅. 基于支持向量机回归模型的测试用例生成与重用. 电子学报, 2021, 49(7): 1386–1391.
                     [doi: 10.12263/DZXB.20200426]
                 [11]  陈铁明, 杨益敏, 陈波. Maldetect: 基于Dalvik指令抽象的Android恶意代码检测系统. 计算机研究与发展, 2016, 53(10): 2299–2306.